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Reducing Carbon Emissions from Transport Projects

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Reducing Carbon Emissions from Transport Projects Evaluation Study Reference Number: EKB: REG 2010-16 Evaluation Knowledge Brief July 2010 Reducing Carbon Emissions from Transport Projects Independent Evaluation Department ABBREVIATIONS ADB – Asian Development Bank APTA – American Public Transportation Association ASIF – activity–structure–intensity–fuel BMRC – Bangalore Metro Rail Corporation BRT – bus rapid transit CO2 – carbon dioxide COPERT – Computer Programme to Calculate Emissions from Road Transport DIESEL – Developing Integrated Emissions Strategies for Existing Land Transport DMC – developing member country EIRR – economic internal rate of return EKB – evaluation knowledge brief g – grams GEF – Global Environment Facility GHG – greenhouse gas HCV – heavy commercial vehicle IEA – International Energy Agency IED – Independent Evaluation Department IPCC – Intergovernmental Panel on Climate Change kg/l – kilogram per liter km – kilometer kph – kilometer per hour LCV – light commercial vehicle LRT – light rail transit m – meter MJ – megajoule MMUTIS – Metro Manila Urban Transportation Integration Study MRT – metro rail transit NAMA – nationally appropriate mitigation actions NH – national highway NHDP – National Highway Development Project NMT – nonmotorized transport NOx – nitrogen oxide NPV – net present value PCR – project completion report PCU – passenger car unit PRC – People’s Republic of China SES – special evaluation study TA – technical assistance TEEMP – transport emissions evaluation model for projects UNFCCC – United Nations Framework Convention on Climate Change USA – United States of America V–C – volume to capacity VKT – vehicle kilometer of travel VOC – vehicle operating cost NOTE In this report, “$” refers to US dollars. Key Words adb, asian development bank, greenhouse gas, carbon emissions, transport, emission saving, carbon footprint, adb transport sector operation, induced traffic, carbon dioxide emissions, vehicles, roads, mrt, metro transport Director General H. Satish Rao, Independent Evaluation Department (IED) Director H. Hettige, Independent Evaluation Division 2 (IED2), IED Team Leader N. Singru, Senior Evaluation Specialist, IED2, IED Team Members R. Lumain, Senior Evaluation Officer, IED2, IED C. Roldan, Assistant Operations Evaluation Analyst, IED2, IED Independent Evaluation Department, EK-2 In preparing any evaluation report, or by making any designation of or reference to a particular territory or geographic area in this document, the Independent Evaluation Department does not intend to make any judgments as to the legal or other status of any territory or area. CONTENTS Page EXECUTIVE SUMMARY i I. INTRODUCTION 1 A. Objective 1 B. Context 1 C. Recent Related ADB Initiatives 3 D. Why ADB Needs to Address Carbon Dioxide in Transportation 4 II. EVALUATION METHODOLOGY 6 A. Scope of the Study 6 B. Methodology 7 C. Framework for Assessing Carbon Emissions from Transport Projects 9 D. Limitations of the Study 11 III. KEY FINDINGS OF THE CARBON FOOTPRINT ANALYSIS 11 A. Indicative Carbon Footprint and Savings Achieved by Transport Sector Assistance 11 B. Local Pollution Reduction, Traffic Safety, and Carbon Dioxide Reduction are Correlated 17 C. Construction Period Emissions 18 D. Operations Period 20 IV. IMPLICATIONS FOR ADB 35 A. Raising Awareness of Carbon Emissions 35 B. Dynamic Baselines are an Important Framework for Considering Emission Reductions 36 C. Improving ADB’s Economic Analyses 36 D. Carbon Intensity Monitoring 38 E. Strategy for Carbon Emissions Mitigation 38 F. Urban Planning and Management rather than Transport Plans and Capital Projects 38 V. RECOMMENDATIONS 39 The guidelines formally adopted by the Independent Evaluation Department (IED) on avoiding conflict of interest in its independent evaluations were observed in preparing this report. M. Replogle of Institute of Transportation & Development Policy; S. Gota of Clean Air Initiative for Asian Cities; R. Hickman, Halcrow Group Limited; and A.L. Abatayo were the consultants. The report has been reviewed by H. Dalkmann of TRL Transport Research Laboratory, United Kingdom. To the knowledge of the management of IED, the persons preparing, reviewing, or approving this report had no conflict of interest. APPENDIXES 1. Overview of Projects Evaluated In-Depth for Carbon Dioxide Impact 44 2. Methodology for the Evaluation Knowledge Brief 45 3. Methodology for Transport Emissions Evaluation Model for Projects 46 4. Data Constraints in Carbon Emissions Measurement 75 5. Carbon Emissions Analysis of Select Project Cases 77 6. Impact of Technological Improvements on Transport Project Carbon Footprint 91 7. An Induced Demand Primer 93 EXECUTIVE SUMMARY Economic development is required for poverty reduction. At the same time, development could also lead to increased greenhouse gas (GHG) pollution caused by the resulting growth in vehicular traffic, energy use, and other activities. GHG pollution and local air pollution threaten to undermine development with the increasing evidence of their adverse environment and health impacts. The Asian Development Bank (ADB)—with new policies supporting sustainable, low carbon growth across Asia and the Pacific—is therefore challenged to support its members in addressing these intertwined issues. Transportation is the fastest growing major contributor to global climate change, accounting for 23% of energy-related carbon dioxide (CO2) emissions. Many experts foresee a three- to five-fold increase in CO2 emissions from transportation in Asian countries by 2030 compared with emissions in 2000 if no changes are made to investment strategies and policies. This is driven by the anticipated six- to eight-fold increase in the number of light-duty vehicles and a large increase in the number of trucks, which could overwhelm even the most optimistic forecasts of improvements in vehicle fuel efficiency. ADB's Strategy 2020 envisages assistance to developing member countries (DMCs) in moving their economies onto low-carbon growth paths and to reduce the carbon footprint of Asia's cities. ADB has the opportunity to enhance its stewardship of the environment, public health, and resources by better aligning its investments with goals for climate mitigation and adaptation. This evaluation knowledge brief (EKB) provides tools and knowledge that can inform such efforts. ADB is expanding its investments in a wide array of transportation projects that are required for economic and social development, mobility, commerce, and communications. To gauge their contribution to ADB’s environmental sustainability goals, a key place to start is to better understand what aspects of ADB projects and activities contribute to or reduce transport-related CO2 pollution. That is the central focus of this EKB, which also offers ADB tools that could be used in the future to better monitor and evaluate its carbon footprint in the transport sector. These tools may be used in conjunction with other economic analysis tools that take into account costs and benefits of specific types of transport services and their development impacts. As the key development partner in Asia, ADB needs to explore opportunities to reduce CO2 emissions and attract eligible funds for low carbon initiatives. Funding for land transport projects forms a substantial 96.5% of ADB’s transport sector assistance. Therefore, the EKB focuses on ADB’s assistance for land transport. Based on a study of ADB’s transport assistance approved between 2000 and 2009, this EKB develops specific models for assessing carbon emissions from various transport modes, including inter-city highways. These transport modes play a crucial role in economic development in Asia and will continue to do so. By providing a means to assess the carbon footprint of these transport projects, the EKB does not suggest diluting the development agenda in Asia. On the other hand, it suggests ways to mitigate the intensity of carbon emissions for future transport projects. In addition, ADB’s safeguards policy statement of 2009 requires the borrower/client to quantify direct GHG emissions during development or operations of the projects. By developing mechanisms to measure carbon emissions, the EKB will help ADB to support the borrower/client to meet this safeguards requirement. Low carbon transportation strategies can be among the least costly ways to reduce GHG emissions when they are designed to reduce the need for travel, to shift trips to often less expensive low carbon modes, and to improve system management by reducing congestion and inefficiency in the use of transport capacity. These approaches can also produce ii disproportionate social and economic benefits for low-income people who are more dependent on walking, cycling, and public transport. Most strategies and investments that reduce CO2 emissions also reduce local air pollution, which imposes huge public health costs that fall disproportionately on the poor. Yet, current ADB transport project economic and environmental appraisals do not consider these elements. This EKB identifies methods and tools by which ADB could assess the CO2 and air pollution impact of projects. It provides a first estimate of the carbon footprint of ADB transport sector assistance and the likely overall impact of ADB projects on future CO2 emissions. It identifies the relative carbon emissions intensity of different types of ADB transport projects to CO2 emissions and how individual projects and the overall project mix might be modified to contribute to emerging organizational, global, and national low carbon intensity
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